Calculating machine



Sept. 5, 1939. J. R.. PEIRCE CALCLATING MACHINE Filed May 9, 1933 9 Sheets-Sheet 1 |11 all! n R .l ouv TSa NMG ECD". vm M em ha WML! .dY *FME n N lnWlR @who Cw JMA e# 'lo www.. Y, AMB

Execuiors Sept. 5, 1939. J. R. PEIRCE GALGULATING MACHINE 9 Sheets-Sheet 2 Filed May 9, 1935 FIGB.

INVENTOR Decea s ec( as A'Gavn Execu'lors Sept. 5, 1939.

J. R. PE-IRCE CALCULATING MACHINE Filed May 9, 1933 9 Sheets-Sheet 3 Sept. 5, 1939. J, R. PEIRCE '2,172,071

CALCULATING MACHINE Filed May 9, 1935 9 Sheets-Sheet 4 arid nay-a3 IGayfy y BY hQirATToRNEY Eemwi,

FIG.7.

Sept. 5, 1939. J. R. PElRcE 2,172,071

CALCULATING MACHINE Filed May 9, 1935 9 Sheets-Sheet 5 FIGB.

INVENTOR BY Execu'tars WMZ Sept. 5, 1939. J. R. PElRcE 2,172,071

CALCULATING MACHINE I Filed May 9, 193:5 9 sheets-sheet 6 T/zomas 4.Gavyl BY heir ATTORNEY Elfecuf'ors wwf/ sept. 5, 1939.

J. R. PElRcE CALCULATING MACHINE Filed May 9, 1933 9 Sheets-Sheet 8 FIG.13.

Sept. 5, 1939. J. R. PEIRCE cALoULATiNG MACHINE y9 sheets-sheet 9 Filed May 9, 19H35 Ade/bert CMLIZ BYthQfr ATToRNEY Patented Sept.. 5, 1939- l CALCULATING MACHINE John R. Peirce, deceased, late oi' New York, N. Y., by Adelbert C. Malay, Jamaica, and Thomas A. Gavin, Queens Village, N. Y., executors, assignors, by mesne assignments, to International Business Machines Corporation, New York, N. Y., a 4corporation-o! New York Application May 9, 1933, Serial No."670,114 1 Claim. (Cl. 7535-613) UNITED STATES PATENT lori-lcs This invention relates to devices for setting up and entering balances in a tabulating machine.

An objectv of the invention is to provide an improved form of data set up and entering device of the ten key operated type. 'I'he data set up may be printed by operation of the tabulating machine.`

Another object is to disclose means for setting up electrical connections to control the accumulating operation of a tabulating machine.

Another object of the present inventionl is to adapt a tabulating machine for the reception of data set up on a keyboard.

A feature of the invention is the printing of the group number of the group of cards which follows the group being tabulated, before-the rst mentioned group is tabulated. The group number oi the first card of a group is printed before the data on the card are accumulated and recorded. 'I'his enables the operator of lthe machine to insert a ledger sheet corresponding to the printed group number, and then enter the old balance 11e-notices on the sheet, in the accumulatingmechanism of the tabulatrbetore the new items represented on the group of cards are added therein. I The initial group numberl apprising the operator of the identiiication of the items which follow, may be printed on`a separate strip of paper ormay be printed at the foot of a column of group numbersimprinted on the ledger sheet.

The tenpkey mechanism in the machine comprises `a differential mechanism for -setting a series of rack slides, one at a time, to represent the numbers of the depressed keys.v Each rack.

slide carries a pair of contacts, one adapted to contact with a common contact bar and the other settable opposite any one of ten impulse carrying bars. Normally the contacts are out 'of touch with the bars, but at the proper time the bars are rocked into cooperation with,the adjusted contacts.

'I'he adjusting arm of the di'erential mechanism is conveyed across the machine on a car- A riage which moves stepby step as the keys are Y operated. Tabulating stops may be arranged to locate the carriage in predetermined columnar positions. -The-ca.rriage may be stepped ,by a space key and restored by a carriage return lever which also serves in back-spacing.

After thel rack slides are adjusted, they are latched in position by individual pawls cooperating with the rack teeth'. The same teeth mesh.

with a sector 4carrying an indicating segment part of the data set up.

The keyboard is operated to set up the oldV lwhich exhibits the data set up through a window in the case. If the operator notes that any digit in the data is incorrect, he may operate an error. key to disengage the pawl holding the slide in that particular column; and then the slide may be adjusted again by the proper key. If it is desired to erase the entire set up, a bail which cooperates with a series of latches pivoted on said pawls, may be operated to release all the rack slides. Finger pieces are provided for each of the latches so that they may be lifted out of the path of the bail if it is desired to repeat any balance appearing at the end of the list of amounts recorded on the ledger sheet placed in the tabulating machine. Then a balance key is depressed to run the tabulator anddirect impulses through the ten bars in the set up device and through the accumulators in the tabulator in accordance with the number set up on the keyboard. Thus, the balance is added in the tabulator.

Next, the tabulator is started in regular listing operation to add and record the items represented on the perforated cards. As each card is vsensed the amount thereon is added ,in the acentry of data of each item there is printed the identiiication of the following item.

. Whenthe last card of a group appears in the 'tabulator and a group change occurs, the data on the last card is added and recorded, the group number of the tlrst cardfot the incoming group is recorded, and the machine is conditioned for a total taking operation. After the total is printed and the ledgersheet is removed from the tabulator, another ledger 'sheetis inserted corresponding to the group number printed with the last item of the previoi run. 'Ihe keyboard is operated to set up the old balance and thecycle of opreationoutlined hereinbefore is repeated.

Other objects and advantages of the presentA invention are noted hereinafter in the descripcarriage.

tion and which form part of this specication.

In the drawings:

Fig. 1 is a side elevation view of the tabulator with the keyboard mechanism attached thereto.

Fig. 2 is a detail view Aoi the clutch connections and contacts which are operated for balance entry. 4

Fig. 3 is a sectional elevation view of the ten key keyboard data entering dvices.

Eg. 4 is a detail view of the error-key mechamsm.

Fig. 5 is a detail view of one of Ithe numeral keys and the cooperating depression. control devices.

Fig. 6 is a view of sample rerords; the one being a ledger sheet and the other a strip for receiving ledger numbers.

Fig. '1 is a front elevation view of the data entering mechanism with a section of the case removed and other parts broken to reveal th: construction.

Fig. 8 is a plan view of the key controlled differential mechanism and the column selecting Fig. 9 shows the-tabulating key controls which form part of the data entering means.

' Fig. 10 is a detail view of the spacing key devices.

' Fig. 11 is a sectional elevation view of the devices controlling the operation of the contacts for preventing backcireu'its during balance entry.

Fig. 12 is a. side view, partly in section, of two orders of the accumulating devices.

- Fig. 12A is a detail view of the transferring devices Ain the accumulator.

, Fig. 13 is a sectional elevaton view of the tabulator, and shows the main operating mechanism, the printing mechanism and the accumulating devices. Y

Fig. 14 is a wiring diagram of the machine.

A divisional application, Serial No. 214,301, filed June 11, 1938, sets forth the keyboard mechanism and data entering devices described herein- Vait-er.

29 covers most of the mechanism except for openings through which various levers extend for manipulation.

The keyboard comprises a set of ten numeral keys and four specialkeys as shown in Figs. 7 and 8. `The stems 30 if the keys are guided at the upper end in the upper frame 28, and at the lower end are located by slots in a plate 3| which s secured to frame 28 by means of side pieces 32. Referring to the detail view in Fig. 5, it is noted that the side of a numeral key stem 30 is cut with two sets of oppositely facing ratchet teeth 33 and 34. Cooperating with the ratchet teeth are a pair of pawls 35 and 36 which are pivoted on `a. rod 31 supported between bars 38 secured to the underside of frame 28. A spring 39 between the pawls, urges them into engagement with the teeth, but one or the other of the pawls is held out of engagement by a three-armed lever 40 pivoted on rod 31. The overturned end 4| of lever 40 cooperates with shoulders 42 and 43 cut in the side of the key stem; and the lugs 44 and 45 .on lever 40 cooperate with pawls 35 and 36 respectively, so that when the key is fully raised, the lever is rocked clockwise, holding out the upper pawl and permitting the pawl 36 to engage the upwardly facing ratchet teeth 34, thereby preventing partial depress'lon and retraction of the key. When the key is fully depressed, shoulder 42 strikes lever 46 and rocks it counterclockwlse, pushing pawl 36 out and bringing pawl 35 into engagement with the downwardly facing teeth 33. Then if the key is partly raised, the pawl 35 prevents depression. Thus, a numeral key must be fully depressed and fully restored foreach digit entering operation.

An over-center device holds the lever 40 in either of the two operated positions. The pointed end of a pear-shaped detent 46 fits into a hole in the overturned end 4I of lever 46. The detent is placed ln a circular hole in a bar 41 and is free to oscillate therein about the large end which is contacted by a leaf spring 48 on the bar. 'The spring urges the detent forward and tends to hold the lever 46 in a raised or lowered position, thereby conditioning either pawl 36 or Ipawl 35 forfoperation.

A single key interlock prevents the operation of more than one of the fourteen keys at a time.

Once a key is depressed a slightamount, all the other keys are locked until said key is fully depressed and restored. The end of each key stem 30 is cut out to form a slot 49 the upper edge of which cooperates with cam faces on pendants 56 mounted on trunnions 5l pivoted between bars 52 secured to side plates 32. The special keys, Figs. 4, 9 and 10, are provided with stems 53 shaped to conform with the ends of the numeral key stems 30. The pendants are mounted between the keys, and the pendant at the end of a row cooperates with a two-armed lever 54, Fig. "I, which transmits the motion from one row of keys to the next row. Depression of one key moves all the pendants under the upper shoulders of slots 49 on al1 the other keys..

Each of the numeral key stems 36 is cut with a notch 55, Figs.3 and 5, to receive one end of a diierential lever 56. The levers are pivoted on studs 51 secured to casting 21, and at the right end, Fig. 3, have operating faces 58 adapted to cooperate with pins 56 arranged at differential distancesv away from said faces. Springs 66 hold and restore the key stems and levers 56 in normal position. The pin 59 cooperating with the lever 56 operated by the 9 key, is in contact with the face 58 and therefore will partake of th'e full movement of the key; while the other pins vary in distance from theirvrespective operating faces 58, the pin for the 0 key being yfarthest from the cooperating face 58 on thevzero lever 56. Thev pins are mounted on arms 6|, Fig. 8, secured to a shaft 62 carrying apair of arms 63 between which 'a slotted bar. 64 is swung.. Thus, the bar 64 is raised a differential distance depending on which key of the tenv numeral keys is depressed.

An operating arm 65, Figs. 3 and 8, extending through bar 64 is adapted to be moved by the l side of the machine, Fig. 8, towards the right in setting up a number. When a numeral key reaches the end of its downward movement, and a slide 18 is brought into adjusted position by arm 85, the carriage escapes one column space,

and arm 65 is shifted to the right and contacts the side of a division plate 85 .before cooperating with the next slide 18. A leaf spring. 14, Figs. 3 and 8, yieldingly holds the arms 85, which is loose on a block 15 between extensions 81agalnst the division plate as the arm is lowered, until the end of the arm arrives opposite the slot 88. 'I'he arm 85 then snaps over to engage the next slide and is ready to adjust the same when any numeral key is depressed.

A series of pawls 16,- Fig. 3, one'for each slide 1.8, are pivoted on a rod 11 and cooperate with the rack teeth 18 on the side of the slides 18 to hold Athem in adjusted position. An operating link 18 is pivoted on each of the pawls 18 and serves to operate the pawls and release the slides at the end of an operation. A spring 88 holds the pawl against the rack. The links 19 are operated also to cause repeating and correction of data settings in a manner described hereinafter.

Each ofthe rack slides 18 carries an insulation block 8|; Fig. 3, to which is riveted a spring metal conducting member 82 carrying a pair of contacs 83 and 84. A spring 85 is fastened between 1 the b lock 8| and a portion of the machine frame and tends to restore the slides 18 when they are released by pawls 18.

The lower contact 84 is adapted to cooperate with a vertical contact strip 88, and the upper contact 83 may be brought into touch with any one of ten horizontal conducting bars 81 mounted above strips 88 and insulated from each other.

The Icontacts 83 and 84 are normally out of errgagement with the bars 81 and strips 88, contact being made only after all the slides are adjusted and the tabulating portion' of the mechanism is adapted to receive the data set up. 'I'he bars 81 and strips88 are carried between a pair of levers 88Flgs. 3 and 7, pivoted on a shaft 88. A pair of cross bars 88 and 8| are secured to the levers 88 and between them hold the conducting bars, the strips, andthe insulation bars 82. To

the ends of the bars 81 are attached wires leading to an emitter for directing timed impulses vthrough said bars in synchronism with the operation. of the tabulating accumulating mechanism. A plug connection l83 -is made to eachcontact strip 88 by a wire 84 leading to an accumulator .control magnet. The electrical control of the contact devices shown in Fig. 3 are described reference to the numerals are impressed. The ange moves near a horizontal window |88 in the case 28 through which is exhibited the numerical setting oi all the slides. f The carriage 88 mentioned hereinbefore is moved step by step under/control of the'keys in order to move the arm 8,5 intocooperation with one after another of the slides 18. Rollers |8| pivoted on the carriage 88 are confined in ways cut into the castings 28 and 21. A pair of 'pawls |82 and |83, Figs. 3, rI and 8, are pivoted at |84 and |85 on the carriage and depend into engagement with a rack |88 mounted on a pair of arms |81 pivoted on a shaft |88.

Thecarriage is urged to the right along the rack |88 by a spring drum |88, Fig. '1, connected by a band ||8 drawn over a pulley and fastened to the carriage. A spring ||2, Fig. 9, normally holds arms |81 back, with rack |88 in engagement with pawl |82; however, on the depression of any numeral key, the face 58 of the corresponding lever 58, Fig. 3, strikes the rear end of a cross-bar ||3 extending from the arms |81. The cross-bar is positioned so that it is struck by any lever 58 only after the pin 53 is aligned with a concentric slot ||4 in the end of the lever 58. Thus, the differential movement imparted to the arm 85 by the-lever 58 is completed before the carriage escapement is effected.

The carriage is allowed to move one step when the rack |88 moves out of engagement with pawl |82, into engagement with pawl |83, and thenback to normal position again. The end of pawl |82,-Fig. '7, is xed'with respect to horizontal movement along' the carriage, but the end of pawl |83 is movable by'means of a pin and slot connection ||5 to the carriage to allow a step of movement of the carriage when a rack tooth vcomes into engagement with pawl |83.

A device is provided to space the carriage one step' when it 'is desired to move the same without operation of a numeral key. The space key lever 8, Fig. 10, is pivoted on a stud 51 and has an end |1 cooperating with the cross-bar H3 just as a numeral lever cooperates therewith. The dotted line positions of the key shows how the rack |88 is moved forward to allow the carriage 88 to escape when the space key is depressed.

A combination carriage return and backspacing device is provided to move the carriage to the left, Fig. '1. A lever ||8 is pivoted at ||8 on a pair of ears extending upwardlyfrom the carriage 88. The end of the lever extends out of the case as shown in Fig. 3. If this lever is grasped iirmly and urged to the left, the carriage 88 may be moved along to the desired position.

When the lever ||8 is rocked counterclockwise about the p ivot ||8, a pawl |28, en an arm |2| secured to the shaft of the lever, engages a tooth on the rack I 88 and shoves the carriage 88 one step to the left in a backspacing movement. The

pawl |28 is normally held out of engagement with the rack |88 by a pin |22 on carriage 88, against which pin the pawl is pressed by a spring |23.

'I'he carriage movement may be controlled by a tabulating mechanism which is settable to a1- low the carriage to skip from column to column in setting up data in a xed form. The tabulating stops |24, Fig. 3, are in .the form of a thin key which is slotted to vit in any of a number of notches |25 cut in a horizontal bar |28 mounted on a pair of arms |21 pivoted onva shaft |28. When the stop .|24 is inserted into a notch |28 on bar |28, a spring member |28, Flg.` 3, on the stop, engages the corner, of 'the bar and holds the tip of the stop extended and adapted to engage a latch |38 on the carriage frame 88. The latch |38, Fig. 8, ispivoted at |3| and urged by a spring |32 to movewithinthe confines of a pin Vand slot guide |33 until a stopping notch |34 is in the plane of the tip of stop |24 when the bar |26 is moved to the right, Fig. 3.

The movement of the frame comprising shaft |28, arms |21, bar |26 and stops |24, is accomplished under control of the tabulating key illusltrated in Fig. 9. The key lever |35, pivoted at |36 andrestored by spring |31, is provided with two tabs |38 and |39. The upper tab |30 is connected byan adjustable screw and nut to a shoulder on an arm .|4I. The arm |4| forms part of the frame comprising arms |21. 'Ihe other tab |39 has a. similar connection to an arm |42 on the carriageescapement frame |01. When the tabulating key is depressed, arms |21 and frame |01 are rocked in a clockwise direction, the rack |06 is moved out of control of both pawls |02, |03, Fig. 7, and the carriage is free to move to the right under the influence of spring .drum |09; however, since the bar |26 is moved in at the Sametime, the stops |24 are in the path of the latch |30, Fig. 8, and serve to stop the carriage in a predetermined position. As the key lever |35 is restored, the rack |06 is moved into cooperation with pawls |02, |03 and the carriage is A then shifted'in the usual way by operation of the numeral keys.

lf it isnoted that one of theA digits of asetting is incorrect, the corresponding rack slide 10 may be restored to normal position. 1 Then the correct key may be operated to iill out the setting. This sort of a correction operation is brought about by means of the error key in Fig. 4, and the connections to a link 19 and the pawl 16 shown in Fig. 3. The links 19 are guided on an S shaped bar' |43, Fig. 3, fastened to the main side frames 24 and 25,

- `and are formed with downwardly extending projections |44 in the path of a correction selecting member |45 pivoted at |46 on the carriage frame 68. The member is moved along with the caririage into cooperation with one of the links 19.

There the member |45 is held retracted by a compression springY |41 in the carriage frame. Behind the member |45 is abail |48 comprising arms Xed to a tube |49. The bail |48 is provided with an extension |50, Fig. 4, carrying a`pin |5'| `in contact'with a. tab |52 on an error key lever i links 19 to theleft, rocks a pawl 16, and releases the associated rack lslide 10 which then drops to normal position. Y

After a data entering operation it is often desirable to release all of the slides 10. To do this, the bail |48 is rocked'counterclockwise through a wider arc than that produced by operation of the error key. Then all the links 19 in the path of bail |46 are pushed to the left, Fig. 3, and'all the slides 10 associated with said links are allowed to restore. '/On such operations, the bail |48 is operated Vvby a lever |56, Fig. 7, extending from The lever |56 is l the right side of the machine.

connected to an arm |51 formed with an extension |58'which engages the rear edge of the bail |40, so that when the lever is depressed, the bail,

Fig.\3, is rocked away .from the stop bar |43 in a counterclockwise direction.

` In order to repeat the entry of certain data, the slides10 positioned to indicate such data, may be retained in adjusted position while the other slides are restored to normal position. To do this;L any of the links 19 may be lifted out of the path of member |45 and bail |46. In cooperation ai'raovi with an overturned end |59 (Fig. 3) on each link 19 is a lever |66 pivoted on rod |6| held in a slotted bar |62 and having a finger piece |63 extending-out of the case. The levers |60 are heid in operative or inoperative position by spring urged ball detents |64 which cooperate with notches in the lever. Adjustment of one or more of the iinger pieces |63 to a lowered position, lifts the associated links 19 and prevents operation'of the connected pawis 16; thus maintaining the setting of the related slides 19.

The foregoing section of the description deals with the devices associated with the keyboard mechanism and data setting means. Before describing the connections and controls that said devices have inthe tabuiator, it is believed advisable to consider a brief outline ofthe regular tabulating mechanism and operation. Most of the devices described hereinafter are shown and described in detail `in a copending application of J. R. Peirce, Serial No. 442,348, which eventuated as Patent 2,042,324, issued May 26, 1936.

'Ihe tabulating devices are mounted on frames |65, Figs. 1 and 13, supported onbase 23. A motor attached to the underside of base '23 is connected to a worm shaft |66, Fig. 13, by a belt to pulley |61. The worm |60 mounted on said shaft, drives a worm wheel |69 fixed to shaft |10 so that, thisl shaft rotates continuously as llong as the tabulating motor is energized. A gear on shaft |10, through gears |1| and |12, Fig. 1, drives a shaft |13 which in turn, through bevel gears |14 causes vertical shaft |15 to rotate. On this shaft |15 are n xed several bevel gears |16 in mesh with bevel gears |11 on parallel shafts |16. Thus, through this train of gearing, shafts |18 arerotated constantly, and the gears |19,

Figs. 12 and 13, mounted on these shafts will also rotate continually, -thereby turning the actuating elements of the accumulating devices with which they are related and which are more fully described hereinafter. l

At both ends of shaft |10 are clutch devices adapted uponenergizationof a magnet CFCM, Fig. 14, to form a driving connection at one end to a card VYfeeding device, and energization of magnet PCM, Fig.. 1, causes connection to a printing mechanism at theA other end.

A number of cam contacts are mentioned hereinafter with reference to the wiring diagram.

These contacts are operated by cams on the shaft |10-and the card feed shaft clutched thereto. 'Ihe CR contacts are operated by cams on the constantly running shaft 10 and the CB contacts are actuated by the card feed shaft only during thefeeding of records.

The regular Hollerith form of perforated record cards are used, with single perforations located differentially to represent a number.

'The cards are fed singly, first under an upper set of perforation reading brushes UB, Fig. 14, and then one cycle of operation later, they Dass under the lower set of brushes LB. As they pass they operate upper and lower card lever contacts to control operation of the machine.l

I'he record card passes under the lower brushes LB in synchronism with the rotation of shaft |16, Fig. 12, so that when a perforation is sensed by the lower brush at a time determined by the locationof the perforation, an accumulator magnet AM is energized to actuate the accumulator -tc enter the amount therein.

The energization of magnet AM attracts armature |90, moving it to the rig-ht (Fig. 12) and thereby unlatching arm |9| of an assembly pivoted on stud |82 and normally urged counterclockwise by a spring |88. Therefore, when armature |80 releases arm Ill, the assembly 'is rocked slightly in a counterclockwise direction. 'I'he assembly includes a pair of upwardly extending parallel arms |88 and |88 in the upper ends of whichv is fixed a rod |88. A sleeve |81 carrying a pair of pinions |88 and |89 is free to rotate on rod |89. 'I'hese pinions serve to connect the driving means to the accumulating1gear.

In Fig. 12, two complete adding units are shown mounted on a common plate |90.A y'Ihe "lower unit is similar in structure Ato the Vuprifenunit and vis illustrated with several parts removed to more readily convey an understanding of the operation of the accumulating devices.

The pinion |89 is constantly in mesh with anv @ring 2|8 is mounted on sleeve 2| 8 for rotation accumulating wheel gear |9| which is loose on a stud |92 on plate |90. The other pinion |88 is aligned to mesh with an actuating gear |98 whenever the assembly is vcarried to the left. Gear |98 is loosely pivoted on stud |92 and is attached to a driving gear |98 which is in mesh with'gear v|19 which, as already explained, is mounted on the constantly turning shaft |18.

With the above-described construction in mind, the diierentialpperation of the accumulator may be understood. When the sensing brush encounters a hole in the record card, magnet AM is energized, armature |80 releases arm |8|"per mitting the assembly to rock until arm |88 rests against. stop |98. This movement of the assembly engages pinion |88 with gear |98 and adapts the pinion to rotate in synchronism with said gear, thereby causing pinion |89 and accumulating gear III to rotate also in synchronism therewith. The rotation continues until the zero point in the cycle when a projection |98 on a constantly running cam |91 strikes the. linger |98 projecting from the upper end of arm |88, thereby rocking the pinion assembly clockwise, dis' engaging thepinion |88 from gear |98, and permitting armature |98 to latch arm |8| again. The accumulator gear |9| is proportioned to represent four series of digits so that one quarter of a revolution of the gear is a complete adding cycle of ten units of movement.

The accumulator unit is adapted to start to rotate at ditl'erent times in the cycle depending on when the impulse is received from the card sensing brush, and the rotation of the accumula- Ator gear 'is interrupted at a xed point in the cycle'by cam projection |88, thereby rotating the accumulating gear an amount proportional to the value of the digit represented b y the perforation in the record card. l

After the adding portion ofthe machine cycle 'is completed, there may still' remain a transferring or 'carrying 4operation to be performed.

That is to say, if any accumulator wheel has been turned to, or through, zero during theradding portion ofthe cycle, it is necessary to advance one or moregadjoining higher order wheels one step in order to showv a correct result. next higher order wheel or wheels register a digit '-9, it is necessary lto advance all said wheels one step aswell as advancing-the first Wheel to the leftv of th`e'9 wheels.

lastened toeach* accumulating gear |9|, Fig.

12, is a disk. |89, Fig. 12A. l'l'.hegear anddiskV are proportioned so as to make only one fourth of `a revolution foreach ten digits or steps of accumulating movement. Associated with each disk |99 is a lever 288 pivoted at 28| and having a finger 202 urged by spring 288 to bear on the finger |98.

Ifthe periphery of the disk. While the disk |99 is registering the digits 1 to 8 inclusive, finger 202 rests o n a concentric portion of the periphery, but when the disk registers 9, the nger drops into a notch 208. When the disk turns still further to "10 or 0", a cam point 205 forces lever 200 to the position shown in Fig. 12A where it is held by a latch 206 engaging a catch plate 201 on lever 200. lLatch 206 is pivoted at 208 and drawn towards latching position by a spring 209. Mounted on an insulating block on the left end of lever 200 is a brush 2|0 carrying awire which serves to connect it to the electric circuit of the machine. Fastened and insulated on the other end of lever 200 is another brush 2|| also connected to the electric circuit.

An insulating-bushing 2|2 carrying a metallic if an accumulator gear moves to or through 0 A during adding operation, the brush 2| 0 is moved to contact a projection 2 I1 and direct an impulse through plate 2|8 to the magnet AM of the next higher order. Should an accumulator disk be registering 9 when such an impulse is initiated, the brush 2|| is in position to contact projection 2|8, and the impulse is carried through brush 2|||, ring 2|8 and plate 2|8 to the stili higher order.

The transferring impulses are initiated near the end of Vthe adding cycle, after cam |98 passes If a transfer impulse is directed through a magnet AM, the pinion |88 again en,- gages gear |98 and is cammed out by cam point 2|9 after moving one step.' At the end of each adding cycle, a constantly running cam 220 operates latch 208 to release lever 200 if it should be latched up. The transfer operation is then complete and the accumulator is ready to begin another cycle. 'I'he transferring control is described further hereinafter with reference to the wiring diagram in Fig. 14.

` The machine contains devices for printing the data accumulated. When such printing operation isdesired, a printer clutch magnet PCM, Fig. 1, is energized. This magnet operates an arma.- ture latch arm 22| which thenreleases a pawl 222 and connects the printer driving gear 228 to the rotating shaft |10. The gear 228 meshes with anidler gear 228 which in turn meshes with an- -other gear 225 on the printer drive shaft 226. The printer shaft carries. a number of cams for oper-- ating the printing mechanism.

A pair of complemental cams 221 and 228 cooperate with a two armed lever 229 pivoted at 280 levers :n into cooperation with bail zu as it is raised.

The han zu is moved m synchronism with theV control'of printing magnets PM, Fig. 13. During' f listing, at the same time that an impulse is directed through the adding magnet AM, another impulse issent through magnet PM which then attracts an armature 243V which pulls call wire 244, releasing latch 245 and allowing a pawl 245 to drop into a certain one of the series of notches 241 in a block on type bar 240. Thus each type bar is positioned under control of the perforated record to present the proper type 24| opposite the platen 248V. The pawl 245 and the latch 245 are restored by bails 251 and 258, respectively, which are rocked late in the operating cycle.

As each type bar rises, a pin 249 thereon moves away from a lever 255 allowing it to rock counterclockwise about a pivot 25| on the hammer retaining member 252. .The front end of lever 255' Ais shaped as a hook and adapted to engage bail 253 which then pulls member 252 oif a shoulder on hammer 254 and allows the same to rock on shaft 255 and strike a type 24| under the propulsion of spring 255. The record is impressed on a sheet carried around the platen 245.

The hammers 254,Flg. 13, are restored by a bail 259 comprising arms secured to shaft 255. A bell crank 255Fig. 1, is attached to shaft 255 and connected by a link 25| Ato an arm 252 on shaft 253 which carries a two-armed lever 254. Fig. 13. The lever carries apair of rollers which cooperate with cams 255 and 255 on shaft 225. Late in the printing cycle, the hammers are rev stored through the connections noted. At the same time, the bail 253, Fig.V 13, is restored 'by a link 251, Fig. 1, connected at one end to bell crank 255 and articulated at the other end on an arm 255 fast to shaft 259 which carries the 45 arms 215 of bail 253. Early in the operation,'the

bail is operated by the same connections to release the hammers for striking as noted hereinbefore.

55 When the total taking devices are operated,V

u related printing magnets PM, the bars are'stopped on the shaft 225.

'ihe machine may be conditoned to take a total by energizing magnet TM by hand upon manipulation of a total key, or automatically upon group changes undercontrol of a form of group control device described hereinafter with reference to the wiring diagram.

certain contacts are shifted to connect the printing magnets to accumulator reading brushes instead' of the card sensing brushes. On totals, the magnets AM are energized early in the operating cycle to engage pinions |55, Fig. 12, with driving sears |93 and start the accumulator gears |9| rotating. Secured to each accumulatorgear |9| is a commutator 21| with four conducting spots 212 which are adapted to form an electrical connection betwen two totaling brushes 213 la the accumulator wheel arrives at the zero position. 'Ihe time in the cycle at which the spots appear under the related brushes 213 depends on. the total amount registered in the wheels which is evidenced by the distance between the spots and the brushes before the taking of a total. As the type bars 245, Fig. 13. are rising'in synchronism with the rotation of commutators 21|, lwhen an impulse is carried through the brushes 215 to the in podtions .to present the proper type 24| for printing a number equal to the total amount read oif the accumulator.

Devices are provided to disengage the pinion |55, Eg. 12, when the accumulator wheel reaches the zero position, so that the accumulator is cleared and ready for the entry of a new series of items.

The spring |53 tends to rock the assembly comprising arms |54 and |85.in a counterclockwise direction during item entering. The end of the spring is urged in such a direction by a fulcrum block 214 under the spring. This block is part of an arm 215 pivoted at 215 and having a stud 211 and a projection 218. The arm 215 is held up by a link 219 which is slotted to receive stud 211. 'Ihe link is held in position through connection 254 by a lever 280 `pivoted at 28| and cooperating with a shoulder on a notched shaft 252. The shaft 252 maintains the position it is -shown in on Fig.l l2 during item entering operations. When a total is to be taken, the shaft is released to assume the dotted line `position 283. Then the lever 255, link 219 and arm 215 are released, the fulcrum block 214 is not supported throughout the operation by link 219, but depends on the support of a latch 285 which engages under projection 218 and holds up the arm' 215.

The latch 255 is pivoted at 285 and is formed with an upper actuating arm 281 which cooperates with any one of four cam extensions 288 on a cam secured to accumulator gear |9| and commutator 21|. As the accumulator gear reaches a zero position the extension 288 rocks latch 285 in a clockwise direction, releasing arm 215, lowering fulcrum block 214 to rest Aon the lower arm 259 of the assembly and allowing spring |83 to act in a counterclockwise direction about stud 295. Thus, the pinion assembly is rocked in a' clockwise direction and latched by armature |80.

AThe accumulator gears |9| remain in the zero prising arm`29l, link 292, Fig. 1, and arm 293,

shaft 291, arm 294 and link 295, Fig.-13. Link 295 is normally held out of operative position by the armature 295 of paper feed magnet PF. When the magnet is energized, the link is allowed to lower so that a notch therein engages a stud 295 on an oscillating lever 299 pivoted at 398 and operated by cam 55|. At the proper time the lever 259 reciprocates link 295 and thereby, through the connections pointed out above, shifts the platen to feed the paper. The link 295 is restored by lever 552 operated by pin 593 on gear |59. x

After a data setting is made on the keyboard shown in Figs.4 3, F1 and 8, a balance key 504, Figs. 1, 'I and 8, is operated to enter the data in the tabulating mechanism. The devices operated un der control of the balance key are best shown in Figs. 1 and 2. The bottom of the balance key 554, Fig. 1, is pivotally connected to an larm 595 of a' lever pivoted at 351 on a bracket 555. An-

Yother arm 555 of the lever is attached to a link 559 the other end of which is connected tol a clutch latch. Il., Fig. 2, pivoted at III. When the balance key is depressed the llink 559 is moved to the left and latch 5|5' releases a clutch pawl 5|| which then'engages a notched disk 5|2 The pawl 8| I is pivotally mounted yat 8|4 on a plate 8I5 secured to a cam 8|8 all y,oi' which are loosely mounted o n shaft 228. y'I'his shaft is turned in synchronism with the raising of the type bars and the turningof the accumulator driving gears, and forms the mounting for an impulse emitter 8l1, Fig. 14,vv which is described hereinafter. Therefore, when clutch pawl 8|| locks with disk 8|2, the cam 8|8 is connected to move in synchronism with the tabulating mechanism.

The cam 8| 8, Fig. 2, cooperates with a roller 8|8 on an arm 8|8 pivoted on shaft 88,'Fig. 1, and connected to the'levers -88 forming a frame for the conducting bars 81, Fig. 3. At the proper time a rise on cam 8|8 lifts arm 8|8 and rocks levers 88 counterclockwise, Fig. 3, placing the bars in touch with contacts 88 and 84, ready for the directing of timed impulses through bars 81, members 82, strips 88 and thence through lthe accumulating magnets AM. The levers 88 are allowed to move again to inoperative position after data entry, by a drop on cam 8|8. A spring 821| keeps the arm 8I8 in cooperation with the cam.

When the latch 8|8 is moved to the left, Fig. 2, by link 808, it is held in that position by a lever 82|, the end of which engages a shouldler 822 cut in the latch. The lever 82| is pivoted at 828 on a bracket 824 and is urged into cooperation with latch 8l8 by a spring 825 on the bracket. Near the end of a cycle of operation, a pin 8 28 on plate 8|5 strikes lever 82| and moves it to free latch 8|8 which then rocks into position to catch the end 821 of pawl 8| as it finishes one complete revolution. The shoulder 828 on latch 8|8 first engages pawl 8|| to rock it away from disk 8|2.

Then an extension 828 on 'plate 8|l is stopped by the shoulder 828 and held up by a pawl 888 on latch 8|8.

When the latch 8|8 moves to the left it serves to actuate contacts for controlling various functions associated with balance entering operations. An insulation block 88| is secured to the latch 8I8` and has an end cooperating with one leaf spring of contacts BKC8. The block also has a shoulder 882 cooperating with the ends of two contacts BKCI and BKC2. As the latch moves to the left, contact BKC8 is opened and contacts `BKCI and BKC2 are closed for purposes which are fully described hereinafter with reference tov the wiring diagram.

In Fig. 11 there is shown a contact closing control device which cooperates with a series of contacts PB. These contacts are held open. to prelvent back circuits when impulses are directed through the accumulator magnets AM on carrying and balance entering operations. The contacts are opened by a frame 888 carrying a series of insulation bars 884 which cooperate with the ends of leaf springs 885 forming part of contacts PB. 'The frame is supported on the ends of two swinging arms 888 and 881, the latter of which lis fastened to a cam follower lever 888 on shaftr 888. The lever 888 carries a roller 848 in touch with a cam 84| on the continually rotating shaft |18'. During the portion of the cycle thatimpulses are carried to the accumulator magnets from the card reading brushes, cam 84| presents a depression to roller 848, allowing frame 8'88 to shift to the left under the .urging of spring 842 and permitting contacts PB to close. When the transferring or carrying portion of the item entering cycle is reached the cam acts to operate the lever 888, thus shifting the frame 888 to the left and opening contacts PB.

When a balance entering operation is initiated, the contacts PB are held open to prevent an improper direction of the impulses sent out by the emitter from passing to the printing magnets and thus repeating the recording of the old balance. These holding devices comprise a magnet CBCM which, when energized by'depression of thebalance key, acts to attract its armature 848,'-moving the same until a hooked end 844 thereon overlies a projection 845 on lever 888. Thus, the lever is prevented from following the depression in cam 84|, and contacts PB are held opened. A spring 846 restores the armature -against stop 841 when the magnet is deenergized.

Referring now to the wiring diagram in Fig. 14, the operation of electrical controls in the machine may be described.

'I'he closing of a switch at PS sends current around through the two main lines 848, 848 and energizes the motor M. v

When the start key ST is depressed contac Kl, K2 will be closed. This will close a circuit from the line 848 throughcontacts K2, wire 858, card feed clutch magnet CFCM, contacts TS1 normally closed, contacts HTSI normally closed, contacts KI now closed, stop key contacts K8 normally closed, wire 85| and Wire 852 to the line 848. The energization of the card feed clutch magnet CFCM will cause cards to be fed through the machine. When the cards engage `ycard lever UCL, contacts 853 and 854 will be closed and contacts 855 will be opened. The start key ST will then be released and the card feed circuit will continue to flow from the line 848 through wire 858, then through contacts 854 and `853, "wire 851, wire 858, card feed magnet CFCM, contacts TS1, contacts H'ISl, contacts CFCI which have now been closed by the card feed clutch, then through stop key contacts K8, wires 85|, 852 and back to the line. Between cards the contacts 858, 854 will open. Contacts CBI are timed to close at this time so that the card feed circuit will pass from wire 858 through contacts CBI to wire 858 and through magnet CFCM, etc.

Card feeding will thus continue and the machine will operate to accumulate and to list the amounts being accumulated, if desired, on a listing sheet;

When the machine is set to take a, total, the contacts TS1, which are controlled by magnet 'I'M along with total contacts TS, will be opened to prevent restarting of the card feed While totaling.

If listing is to be effected, the switch S4 is closed. Now when theLCLi contacts are closed by the cards 'actuating the lower card lever associated with the contacts, current will pass from line 848 though wire 858, printing clutch magnet PCM, switch S4, contacts LCLI, contacts HTSI, contacts CFCI, K8 and Wires 85|,.852 to the line 849. After the cards have all run through the machine, card lever contacts LCLI `and UCLI will operate, contacts 858, 354 will open and contacts 855 will close. Magnet CFCM will become deenergized and card feeding Will cease. The printing magnet PCM will also be deenergized by the opening of LCLI and CFCI. When the total key T is pressed to take a total, contacts TSG will close to reenergize the printing clutch magnet PCM so that the total may be printed.

Assuming cards to be feeding through' the machine, the cards first pass under the upper brushes UB and then under the lower brushes LB. While a card is under the brushes LB the contacts CB8 are closed by their cam. If a perforaand through the brush 359 to the common contact roller 360, then `through the perforation in the card to the brush LB, then through a plugging wire 400 from socket J I to the socket J3, then through a wire to contacts PB now closed, through magnet AM, to the other side of the line 349.

4 'I'he energization of magnet AM as we have seen in connection with Fig. 12 causes the accumulator gear ISI to commence to turn to accumulate. It commences to turn at a point in the cycle when a perforation p'assesunder the brush LB and ceasesl to rotate when the cam point |96 causes the pinion |88 to become disengaged from gear |93. Thus the amount represented by the position of the perforation is accumulated in the addingV gear LSI. The circuit through the brush LB also effects printing through the following circuit: from the plug socket'J 3, through cable 36| to contacts TSC nor'- mally closed, printing magnet PM, bus bar 362 and wire 363 to the other side of the line 349. 'Ihe energization of printing magnet PM, as described in connection with Fig. 13, controls the setting of the type carrier 248 to cause printing,v

of the character represented by the .position of the hole in the card. Y

Carrying from one order on the actufmulator to the next higher order is effected as ollows: If the accumulator wheel I9I of any order passes from nine to zero during an adding operation it will cause the brush 2I8, Fig. 12A, to rock into position to be later engaged by projection 2I1 on the commutator ring 2I3 as already described.

.After the accumulator gears have been disengaged the contacts CB2, Fig. 14,4are closed momentarily. 'I'his closure takes place at the moment when the projection 2I1 on ring 2I3 is passing the position of brush 2I0. If the brush has been rocked so as to be engaged by the segment, a circuit will be closed at this moment from the line 348, through wire 364, contactsCBZ, wire 36S, brush 2I0, commutator ring 2I3, brush 2I8, wire 366 to magnet 48 of the next higher order and then back to the line 349. Thus the accumuat nine when an additional one is added to it,

i we have noted that its brush 2l I, Fig. 12A, will be in position to be engaged by the commutator ring 2I3. 'I'his engagement also takes place during the moment that the contacts CB2, Fig. 14, are

' closed. 'I'hus when current passes from the brush 2 .|S to wire 366 it will also pass on to brush 2| I,

commutator ring 2| 3 of the next higher order,y

the tens order and through the brush w2II of the tens order into the accumulator wheel of the hundreds order.

To take a total, the total key T is depressed closing contacts K4. This energizes magnet TM as soon as the CR-I contacts are closed. The TS contactsre `then'shifted out of normal position to an' opened or closed condition when the magnet TM is energized. The total contact shiftingmechanism is shown in greater detail in the British patent identified hereinbefore.

Contacts CR-S and'CR`-4 are closed momentarily at a definite time after the closing of contacts TSA. and a circuit will be set up from the 1ine'"348, wire388u'through contacts TSS, contacts'CR-S and CR4, wire 369, contacts TSA now closed, cable 310, contacts PB, accumulator magnet- AM and back to the line 349. This takes place at a time in the operation of the machine corresponding to one step prior' to the time that ,the nine posi-tions on 'the' card would pass under the-brushes LB. The accumulators are then all thrown into mesh for operation and will turn through ten steps or, in other words, each wheel will turn to add the value ten unless interrupted at'an intermediate point. While the accumulating* wheels are thus turning, a circuit is adapted to be closed from the line 348, through contacts TSS, through contacts CR-2 and CR-3,- and'wire 31| to a brush in each set of brushes 213. Each accumulator gear has a commutator 21| which is secured to it and'turns therewith. When'a Contact spot 212 reaches a position bridging brushes 213, the circuit will continue through the spot 212, cable 312, through contacts TSB now closed, magnet PM and back The position at which a type bar is set will,

correspond tothe valuey contained in the respective accumulator unit so that the type bars will thus print the value contained in the accumulator. The accumulator" gears will be demeshed at the zero position, the grooved bar 282 of Fig.

then to brush 2I6 ofthat order and out to the next wire 361 and von to the adding magnet AM of the still higher order to cause a unit to be added to said order. Thus if the accumulator wheel of the tens order is standing at nine at the' end of an accumulating operation, and the wheel of the units order passes from nine to zero, a unit will be carried into the accumulator wheel of 12 having released the lever 280 to permit the gears |88 to be canimed and latched out' so that the accumulators will be cleared and ready for a new accumulating operation.

If it is desired to re-introduce the total printed into the accumulator for progressive totaling, the accumulator gears ISI are permitted to.turn through ten steps of adding movement before they are demes'hed. This bring's them back to the same relative positions they occupied before the total cycle was initiated. Devices for securing such a progressive total are shown and described in Patent No. 1,939,077, issued December 12, 1933, to A. W. Mills. i

At the end of ten steps' of movement the cam |66 engages the arm`|88 and throws pinion |83 out of mesh with driving gear |93. During such movement in total taking, the notched shaft 282 may be latched against rocking, so that the accumulators will not be separated from the driving gears at the' zero position, but will continue to turn until they have turned a distance equal to 7l the value ten, and'thus will have returned to the amount registeringpositionl y A platen feed mechanism is provided to feed the record paper before printing` in both-listing .and total taking operations. The platen feed magnet PF, Fig. 14, when energized acts to clutch the platen spacer to the driving mechanism. 'Ihe circuit through the magnet is as follows: line` 343, wire 313, magnet PF, contacts P3 closed be'- fore printing, contacts BKC3 closed' when not c entering balances, and wire 314 to line 349.

As the record cards pass in succession under the upper and lower brushes, each card is compared with the following card. to detect a change 'in group number so that the machine may then be stopped or a total be taken. 'Ihe group ccntrol devices include a number of magnets GCM, each wired in series between corresponding upper and lower sensing brushes. The circuit through one of the magnets may be traced from line 349, contacts TS8, common contact brush 315, roller 315, an upper brush vUB reaching through a perforation in a record card, plug wire 311, magnet GCM, plug wire 313,'1ower brush LB, roller 353, brush 359, contactsCB3 and contacts LCL2 to line 348. As long as coinciding perforations appear in the group number columns on successive cards, the magnets GCM are energized during the card reading cycle. Each magnet cooperates with a contact GCC which is closed when the magnet is energized. The lcontacts are connected in series so that the opening of any one of the contacts breaksthe circuit which controls total takgins thefrds agree in group number and all `contacts GCC are closed a circuit is completed 1n une with the print clutchaman'et PCM and card feed clutch magnet CFCM so that whenthey 'are openedby the movement ofl armature 383,

the magnets are deenergized andthemachine stops.k It is then ready for the taking of a hand totalbyhe depression of key T with. the results l noted hereinbefore. 'I'he contacts vHTSI are rea card of the used group has passed under the closed by an energized magnet GCM tripping a latch associated therewith, the contact is held closed until the end of a cycle when all contacts means.' For a detailed showing of the group control contact tripping and restoring mechanism, reference may be made to the British patent mentioned hereinbefore.

If the switch S3 is positioned-as shown, the machine is conditioned to take a total automatically, and magnet TM is adapted to be ener-j Sized by a circuit from line 349, through wires 352, 35| and 319, contacts vCR--L magnet TM, switch S3, wire, 382,` switch Si, contacts 354, and wire 355 to line 348. 'I'hel magnet TM, when energized, operates various contacts and devices as noted hereinbefore to .print a record of the total. Card feeding is automatically restarted contacts P2 by the printing which is in the form of a latch normally holding are. again opened and relatched by 4a positive stored late inthe. total printing cycle by a cam 334 on printingshaft 225.

A printed record of the group number-of each card is made as the record cards pass through the machine. In order that the operator may identify an incoming group of cards before the same cards are entering amounts under the lower'brushes, the printing oi' the group numbers is controlled from the upper brushes. Therefore,

when the machine is stopped by a group change,

lower brushes and a card of an unused group has passed under the 'upper brushes. Then the group number-and corresponding ledger number of the incoming group may be oted anfd the particular old balance amount of said ledger account. may be entered before the new items are added thereto. The circuit-for printing group numbers may be followed in Fig. 14 from line 349, throughcontacts TS8, commonbrush 315, roller 315, upper brush UB, plug wire 385, plug socket J 3, numeral printing magnet NPM, `bus bar 385, switch S5, wire 331, contacts CBIi closed while the index points on the card are being read, contacts' UCL1 closed immediately after a card appears under the upper brushes, and wire 383 to line 348. A number of such magnets NPM may be connected to the upper brushes.

A magnet UPM may be usedfor group number printing by' inserting the end of la plug wire such .n as wire 335 into the jack J|3A and'breaking the connection to the total andv item printing contacts TSB and TSC. 'I'he same magnet may be used for regular item and total printing by leaving the jack J |3A -closed as shown and moving the switch S5 to connect the magnet to bus bar 352'l and line 349. The ,magnets NPM, UPM and TPM have the same form of connections and exercise the same sort of control over the printing mechanism as that exercised by the ordinary print magnet -PM (Fig. 13). j The machine may be stopped after any regular cycle (usually after a totall taking cycle) and then the balance key BIL may be operated to initiate a data entering cycle to enter the data set up on the keyboard into the tabulator.

Three-contacts are operated when the balance key is depressed. The contacts BKCI are closed to energize the printer clutch magnet PCM. The

contacts BKC2 are closed to energize the contact operating magnet CBCM andthe contacts BKC3 are opened to deenergize the paper feeding magnet PF.

'I'he circuit through magnet CBCM runs from line 349, wire 339, magnet CBCM, contacts BKC2,

' contacts CR-5 and wire 333 t'o line 343. Then the contacts PB, are held open, as explained in connection with Fig. 11, to prevent back circuits during a balance entering operation.

Depression of the balance key BL also causes the contact strips 85 and 31, Fig. 3, to be moved into contact with the settable conducting member 82 as explained with reference to the clutch mechanism in Figs. 1 and 2. Themachine is are thenconditioned" to accumulate under control o! Y the impulses sentout by emitter 3|1 and selected by the setting of members 32. The wiring ing machine.

of the balance entering devices may be traced from line 348 to the emitter brush 390 on a common contact ring 39|, then through the ring and a moving contact spot 392 to the ten brushes 393 in succession, wires to bars 81, member 82 placed to contact a certain bar 81 and select a certain timed impulse, contact strip 86, cable 394 and through accumulating magnet AM to the other side of the line 349. As the balance entering operation is completed the strips 86 are moved away from members 82 and the emitter is disabled until the next entering operation is initiated by operating the keyboard. The amounts entered in this way may be recorded by taking a total or a progressive total after the balance entering cycle. Such an operation may be useful in printing an old balance on the rst line of a new ledger sheet. 5

The record sheets shown in Fig. 6 are printed under control of the tabulating machine. The narrow strip 395 carries the record of group numbers of a. series of ledger account entries.` The other record sheet.396 is used to holda record of the date, identification, and amount of each item. The sheet is shown as holding ledger account #1524. The date and alphabetical printing may be accomplished under control of devices such as those set forth in my Patent No. 1,926,883. The sheet is startedwithout any old balance brought forward from a previous sheet. The first two items amounting to $350.00 are recorded the rst time the sheet is present in the tabulat- Before the second set of entries are printed on the sheet, the balance entry keyboard is operated to add the amount 350 in the accumulator. Then two more-items amounting to $700.00 are added and printed, making a total of $1050.00 which is recorded on line 4 of the ledger sheet. The sheet may then be removed and items entered on other sheets before ledger sheet 1524 is again called for by the operator.` The operator is apprised of the identification of the items by reading the ledger numbers or group numbers printed on st rp 395.

The first two ledger numbers are recorded as entries are made in account #1310. The second number isprinted as the last item in the 1310 account is entered. It is a sign to the operator that the next series of items relate to account I#1470. After entering three series of items in ledger 1470, the entry of the last item is accompanied with the printing of 1524 under control of the rst card of the incoming group, which card then passed under the upper brushes as explained hereinbefore.

The operator then'inserts the ledger sheet 396 mentioned above. It is noted that the balance or total of the previous entries amount to $1050.00. This amount is set up on the keyboard and the balance key is depressed, thereby entering the amount into the accumulator. The tabulator is then started to read the record cards numbered 1524, also to add and print the data represented thereon. The four items relating to ledger 1524 are added and printed on sheet 396. As the last item is entered, a group change occurs, a new group number 1600 is printed, and a total taking operation is initiated. The amount of the balance $1050.00, plus the four items equal to $1250.00, results in the printing ofthe total $2300.00 and the clearing of the accumulator ready for ano-ther set of entries.

If desired, the strip 395 may be integral with the ledger sheets 396, or rather the group numthat this strip may be removed every time a ledger sheet is taken out of the machine. Since both the strip and the sheet are held around thc same platen 248 they will be fed' together. inserting a ledger sheet, the strip may be fed along therewith so that a clear space is presented at the printing line.

A better way to handle the ledger sheets is made possible by the use of the well known pressure roller release. If it is desired to remove one ledger sheet and insert another without disturbing the strip, this may be done by operating the pressure roller release to open the feed devices for removal and insertion of ledger sheets.

While an admirable example is shown and described in pointing out the fundamental novel features of the invention, it will be understood that various omissions, substitutions and changes in the form and details of the illustrated -device and in its operation, lmay be made by those` skilled in the art without departing from the spirit of the invention. It is the intention, therefore to be limited only as indicated by the scope of the following claim.

What is claimed is:

In a machine for printing a record sheet under control of record cards arranged in groups, said cards bearing indicia representing amounts and group numbers, means for feeding said cards in` succession, upper and lower sets of record analyzing devices arranged to read the indicia on successive cards concurrently, printing devices, means under control of the lower analyzing devices for controlling certain of said printing devices for printing the item amounts sensed thereon, group control devices under control of said sets of analyzing devices for detecting a change in group and the appearance of the first card of a new group, means under control of said group control devices for disabling said card feeding means, means under control of the upper analyzing devices for controlling other of said printing devices for printing the group number sensed whereby when a group change causes the feeding means to be disabled the last number printed will be that of a new card group, a keyboard comprising a single group of ten digital keys for setting up digit by digit an old balance amount related to said new group, `a plurality of rack slides, an operating lever common to said slides, operating connections between said lever' and said keys whereby the lever is adjusted differentially by the keys to adjust said slides,

- means for connecting said lever with said slides Upon amount, av single series of digital contact bars selectively connected between said accumulator control devices and said emitter by said slide contacts to direct selected impulses from the emitter 'to said accumulator to control it to add the old balance amount set up by the keys, connections between said lower analyzing devices and said accumulator 4ccmtrol devices to add the item amounts sensed to said old balance in said accumulator, and means for controlling said printingr devices to print a new balance under control of said accumulator.

ADELBERT C. MABY. THOMAS A. GAVIN. Executors of the Estate o! John R. Peirce, De-

ceased. 

